DE19642055A1 - Water jet regulator for water taps - Google Patents

Abstract

The device has a jet splitter unit and a jet regulator with several baffle elements. The baffle elements are peg (9) or ring-shaped, are positioned at relative distances, and are integrally connected to at least one holder (3,4). This is an injection-moulded plastic body, and is formed as jet regulator housing (2), or for fitting into such a housing. The especially parallel baffle pegs may be preferably positioned in a grid formation, in a plane at right angles to the flow direction (Pf1). Several layers of pegs can be located above each other in relatively distant planes. The distances between pegs in a layer are approximately the same. The peg's neighbouring peg layers may be arranged across, preferably at right angles, to one another.

Description

The invention relates to a jet regulator with a sleeve-shaped Housing in which a jet regulating device is arranged.

From DE-PS 30 00 799 is a jet regulator of the beginning Known type known, the beam splitting device with a Perforated plate, which one for generating individual beams Has number of flow holes. The perforated plate of this previously known Jet regulators are an air intake device in the flow direction as well as a jet regulating device, which several Has jet regulating screens. The use of a larger number of jet regulating screens is, however, complex. Also being on such Aerator demanded that calcification, especially on the sensitive jet regulators, is to be kept small. In the previously known from DE-PS 30 00 799 Jet regulator is therefore designed the perforated plate so that this good jet splitting favors and the jet regulating screens can be formed accordingly coarse-meshed. At coarse-mesh jet regulating screens is namely the and risk of calcification of these sieves due to the water flowing through them comparatively low.  

The regulating screens usually exist in known jet regulators made of metal, while the jet cutting device also as multi-part plastic part is formed. Around the regulating screens To be able to use in the known jet regulators can perforated plate serving as a jet disassembly device only detachable on The aerator housing must be attached so that before inserting the Perforated plate the jet regulating sieves inserted into the interior of the housing and on a downstream of the perforated plate in the flow direction inner ring flange can be placed. The multi-part Design of the known jet regulator and its manufacture made of different materials does not include you insignificant effort. In addition, the known and aerators made of different materials are not can be disposed of easily.

A jet regulator is also known from EP 94 114 419, in which the perforated plate encompasses a plurality of rings Cascades are connected downstream of the perforated plate facing side several, against the flow direction have oriented pins as flow obstacles. This Previously known cascade jet regulator is also multi-part trained, but can be made from plastic material alone will. Since this known jet regulator is therefore not a regulator be more, is a calcification of this jet regulator counteracted effectively. The disadvantage is the com complicated structure of this jet regulator and the fact that a Noise-compliant noise development with large liter outputs is not can always be guaranteed.

There is therefore in particular the task of a jet regulator of the type mentioned at the outset to create the least possible cost is to be produced, which is also a high liter capacity Guaranteed noise generation and its Jet regulator does not tend to calcification.  

The inventive solution to this problem consists in the Flow regulator of the type mentioned in particular in that the sleeve-shaped housing from at least two sleeve parts is composed, which as plastic injection molded parts are formed that the jet regulating device transverse to Has webs or pins extending through the flow direction and that the pins with a sleeve part wall section at least one Sleeve part are integrally connected.

The sleeve-shaped housing of the jet regulator according to the invention is composed of two sleeve parts, which as plastic Injection molded parts are formed. These plastic injection molded parts, on a sleeve part wall section of at least one sleeve part also the pins that serve as a jet regulating device are particularly simple and inexpensive to manufacture, especially after subsequent laborious assembly of metal Jet regulating screens can be dispensed with. With one as usual also made of plastic jet splitting device the entire jet regulator is made from just one material and can easily be disposed of or reused evaluation of the plastic material are supplied. The tends consisting of the pins oriented transversely to the flow direction Jet regulator less to calcification, as they with conventional jet regulating screens, especially at the intersections points of the grid structure of the individual sieves. With the transverse to the flow direction pins of the Invention The current jet regulator can still be used with high liter lees sufficient beam regulation to achieve a to ensure noise generation in line with standards.

So that unwanted vibrations of the pins can be avoided and these are particularly safe and secure in the sleeve-shaped housing are a preferred embodiment according to the Invention before that the pins assigned by each other Pin section are formed and that the preferably space sectors  forming sleeve parts each have pin sections.

In principle, it is possible to use the housing of the invention Jet regulator composed of several sleeve parts that have horizontal dividing planes between them. However, in order to sleeve parts produced as plastic injection molded parts easily demold and around the jet regulator according to the invention as possible to be able to produce and assemble with little effort a preferred embodiment according to the invention in that in particular two preferably in a longitudinal central region of the Jet regulating device separate, expediently cylinder sec gates forming sleeve parts are provided, the pin sections preferably in alignment in the assembly position. At this preferred embodiment form the two sleeves spatial Cylinder sectors that correspond to their sleeve wall sections Have pin sections so that just by joining together of these two sleeve parts of the aerator as far as possible is finished.

To close the jet regulator after its completion To hold the assembly position, it is advantageous if in one Separation area of the sleeve parts Connection means for holding in closed mounting position are provided.

The simple and inexpensive manufacture of the jet regulator according to the invention still favors if as Latching and / or snap connections to the Sleeve parts are provided with preferably complementary, interlocking connecting parts. In addition, for example in another part of the parting plane or instead can be used as a connecting means for connecting the sleeve parts in closed assembly position also an ultrasonic welding connection be provided.

To the stability of the pin assigned to each other  to ensure sections formed pins and around them Pin sections practically form-fitting to the individual pins To be able to connect with each other, it is advantageous if the Pin sections at their free, in mounting position each other facing pin ends at least interlocking, have complementary final contours.

A training according to the invention of its own worthy of protection Significance provides that adjacent sleeve parts in the range of to the longitudinal axis of the jet regulator approximately axially parallel surface lines preferably pivotable with one another by means of a film hinge (s) are connected. The between the adjacent sleeve parts provided film hinges allow a particularly cost inexpensive, practically one-piece production of the invention Jet regulator and ensure a simple positional Assembly of this jet regulator from the individual sleeve parts. It is possible to assemble the jet regulator in the correct position also achieve if this consists of more than two, one each Cylinder sector forming sleeve parts. These sleeve parts only need to be the one specified by the film hinges Swivel axis are bent to fit these space sectors to bring into the intended mounting position.

In particular with a jet regulator with air intake achieve particularly good and effective jet regulation, if in particular pins arranged parallel to each other preferably rust-like in at least one across the flow direction-oriented level are arranged side by side and if in particular several pin positions in mutually spaced planes are provided one above the other in the flow direction. While doing that the pin positions facing the jet regulating device are those of the perforated plate generated individual jets for air mixing can tear open, the pins in a downstream pin position be spaced apart so that a functional leg Pregnant calcification is avoided and possibly  can form the water layer sealing the jet regulator with the one also calcification on the upstream side Can prevent air positions preventing pin positions.

A preferred embodiment, which is characterized by a special distinguishes effective beam guidance and beam regulation, provides that at least two adjacent pin positions transverse to Flow direction laterally offset pins and that the pins of a downstream pin position in the through the pins of an upstream adjacent pin layer are formed Flow path are arranged. It is a controlled and uniform beam regulation favors when the distance adjacent pins of a pin position is the same.

It is advantageous if the distance from the upstream side ordered, adjacent pin positions is smaller than the distance of downstream pin positions and if the pin position on the outlet side pins at a distance to each other and to pins of the neighboring pin position of preferably has more than 0.8 mm.

In order to ensure that the noise according to the invention is in accordance with the standards To favor jet regulator, it can be advantageous if the Pins a rounded or the like streamlined Have cross-sectional profile and preferably a circular or one with its longer cross-sectional extent in flow directional, oval or teardrop-shaped cross-section have a profile.

Even with a one-piece production of several Sleeve parts of existing jet regulator can expediently several pin positions can be provided, in particular two to ten, preferably six pin layers.

To additionally counteract noise, the  possibly by vibrating during the flow misaligned pins or pin sections could arise be advantageous if in the connection area of the pins with the Housing wall, in particular by support ribs or the like Moldings formed supports are provided. This Outriggers also work at high liter capacities Deflect and secure deflection of the pins or pin sections thus the positional and functional arrangement of the pins and Pin positions to each other.

In particular with a jet regulator with air intake, it can be advantageous if the jet regulating device Beam splitting device with beam splitter plate upstream and if the jet disassembly plate is preferably in one piece with the housing wall of one of the sleeve parts is connected. The one-piece connection of the jet cutting plate on one of the Sleeve parts favors positional and functional at the same time Arrangement of the jet cutting plate in relation to the one in Pins of the jet regulation downstream of the flow direction.

A further development according to the invention provides that the holes in the jet disassembly plate conically narrowing in the direction of flow are formed and preferably an inlet radius on the inflow side or have an inlet cone. Through this inlet radius or Inlet cone is against an undesirable stall works. The conically narrowing design of the holes in the Jet disassembly plate favors a clear, sharp jet of water, whose speed is reduced in the area of the rows of pins and which can be particularly well enriched with air.

An effective and compact design of the jet regulator Setup is favored if the pins are upstream first pin position in the direction of escape to the hole axes of the holes are arranged in the jet disassembly plate.  

To the individual emerging from the jet regulating device jets merge and at the flow end of the jet regulator according to the invention to a closed cylindrical To be able to bundle the entire beam, it is advantageous if on Flow outlet end of the housing behind the jet regulator direction a housing constriction is provided for beam bundling is.

The functional operation of the jet regulator according to the invention can possibly still be favored if upstream the jet regulating device or in front of the jet nozzle device a front screen and / or a flow regulator is connected upstream.

Further features of the invention result from the following Description of an embodiment according to the invention in Connection with the claims and the drawing. The single ones Features can be used individually or in groups of one execution form can be realized according to the invention.

It shows:

Fig. 1 shows a jet regulator in a partial longitudinal section, the sleeve-shaped housing is composed of two sleeve parts connected by a film hinge, and

Fig. 2 shows the jet regulator of Fig. 1 in a partially cross-sectional top view.

FIGS. 1 and 2 show a jet regulator 1 , the sleeve-shaped housing 2 of which is composed of two sleeve parts 3 , 4 . The jet regulator 1 can be inserted into an outlet mouthpiece, not shown here, which can be mounted on a sanitary outlet fitting.

The jet regulator 1 has a jet splitting device 5 which has a jet splitting plate 6 . As is clear from FIGS. 1 and 2, the jet disassembly plate 6 is designed as a perforated plate which has holes 7 oriented in the direction of flow. The jet splitting device 5 is connected downstream of a jet regulating device 8 , which consists of a plurality of unidirectional webs or pins 9 which run approximately at right angles to the flow direction Pf1. These pins 9 are connected in one piece to the sleeve part wall section of at least one sleeve part 3 , 4 .

As shown in FIG. 1, the pins 9 are formed here by pin sections 10 , 11 which are assigned to one another in pairs and are in alignment with one another. For this purpose, the two sleeve parts 3 , 4 are integrally connected to one of the pin sections 10 , 11 of a pair of pin sections. The sleeve parts 3 , 4 thus form spatial Zylindersek gates, so that by simply fitting the sleeve parts 3 , 4 of the jet regulator 1 together and largely completed.

From Fig. 1 it is clear that the sleeve parts 3 , 4 on film hinges 12 are integrally connected. By flipping the sleeve parts 3 , 4 , which are separated from one another in a longitudinal central region of the jet regulating device 8 , on the pivot axis formed by the film hinges 12 , the jet regulator 1 can be assembled precisely in the desired position. In the separating area of the sleeve parts 3 , 4 opposite the pivot axis, connecting means are provided which hold the jet regulator in its closed assembly position. A locking and / or snap connection is provided as the connecting means, which consists of complementary, interlocking connecting parts 13 , 14 on the opposite sides of the sleeve parts 3 , 4 in the assembly position. Likewise, the sleeve parts 3 , 4 could also be glued or connected to one another, for example, by an ultrasonic welded connection.

In order to prevent bending of the pins 9 or the pin sections 10 , 11 under the water pressure and to counteract any undesirable vibration formation of these pins 9 , the pin sections 10 , 11 have at least one form-fitting, mutually facing end faces on their free, mutually facing end faces complementary interlocking end contours on. For this purpose, one pin section 10 or 11 can have, for example, a conical pin tip which engages in a shape-adapted receiving cone of the opposite pin section 11 or 10 of a pair of pin sections.

The high stability of these pins 9 is further favored if supports are provided in the connection area of the pins or pin sections to the housing wall by means of support ribs or the like not shown here on the wall.

As is clear from a comparison of FIGS. 1 and 2, the jet dismantling plate 6 of the jet dismantling device 5 is connected in one piece to the housing wall of the sleeve part 3 . This integrally molded on the sleeve part 3 jet splitting plate 6 thus forms a precisely shaped upstream end of the jet splitter 1 , on which to support and ensure the functional operation of the water-saving jet regulator 1, a flow sieve 15 upstream in the flow direction and / or also a flow limiter or flow rate regulator ( not shown here) is preferably used can be releasably attached.

The sleeve parts 3 , 4 of the jet regulator 1 are inexpensive to produce as plastic injection molded parts. Through the one-piece connection of the sleeve parts 3 , 4 , these can also be assembled with little effort. Since the jet regulator 1 consists of only one material, it can be disposed of particularly easily or can be recycled for its plastic material.

In order to prevent an undesirable and possibly also noise-forming stall, the holes 7 in the jet plate plate 6 - as shown in FIG. 1 - are conically constricting in the flow direction Pf1 and have a funnel-shaped inlet cone on the inflow side. Of the pins 9 arranged in six approximately parallel pin positions, those of the upstream first pin position are arranged in the direction of escape to the hole axes of the holes 7 in the jet disassembly plate 6. The pins 9 of the second and third pin positions are arranged in such a way that the pins 9 of a pin position arranged downstream lie in the flow path formed by the pins 9 of an pin position adjacent upstream. In this way, an effective division of the individual jets generated in the jet splitting plate is achieved, which can thus be mixed particularly well with the air sucked in via the air inlet openings 16 provided in the housing wall.

In contrast, the pins of the third, fourth and fifth pin positions are arranged one below the other in the flow direction Pf1 and thus favor the bundling of the individual jets into a barely scattering total jet at the flow exit end 17 of the jet regulator 1 . This combination of the individual beams to a concentric total beam is provided by an end occurs at Strömungsaus 17 of the jet regulator housing 2, the inflow side rounded Gehäuseeinschnürung 18 additionally supported.

As is clear from FIGS. 1 and 2, the pins 9 are each arranged in a pin position approximately at an equal distance from one another. In Fig. 1 it is shown that the distance from the upstream pin positions is smaller than the distance from downstream, adjacent pin layers. The pin layer arranged on the outlet side has pins 9 which are at a distance of preferably more than 0.8 mm from one another and from the pins 9 of the adjacent fifth pin layer. The thus comparatively far apart pins 9 of the sixth pin position arranged downstream are thus spaced apart from one another in such a way that calcification which has an adverse effect on the function is avoided and possibly residual water remains which forms a water layer which closes the jet regulator 1 . This layer of water stuck to the sixth layer of the pin creates an air seal that prevents calcification even in the upstream pin positions. The jet regulating device 8 of the jet regulator 1, with its pin positions oriented approximately at right angles to the direction of flow, hardly has any tendency to calcify anyway, since this jet regulating device 8 can dispense with otherwise customary jet regulating screens, which calcify easily and lead to malfunctions, in particular at the intersections of their grid structure.

The jet regulator 1 shown here is characterized by a noise generation that conforms to standards, even at high liter outputs. An undesirably high level of noise is additionally counteracted if the pins 9 have a rounded or the like streamlined cross-sectional profile. The pins 9 of the first two pin layers on the inflow side have a cross-sectional profile oriented with their longer cross-sectional extent in the flow direction Pf1, which also withstands high water pressures well.

Claims (20)

1. Jet regulator with a sleeve-shaped housing ( 2 ), in which a jet regulating device ( 8 ) is arranged, characterized in that the sleeve-shaped housing ( 2 ) is composed of at least two sleeve parts ( 3 , 4 ), which ( 3 , 4 ) as Plastic injection molded parts are designed so that the jet regulating device ( 8 ) has webs or pins ( 9 ) running transversely to the flow direction (Pf1) and that the pins ( 9 ) are connected in one piece to a sleeve part wall section of at least one sleeve part ( 3 , 4 ). 2. Jet regulator according to claim 1, characterized in that the pins ( 9 ) are formed by mutually assigned pin sections ( 10 , 11 ), and that the preferably space-forming sleeve parts ( 3 , 4 ) each have pin sections ( 10 , 11 ). 3. Jet regulator according to claim 1 or 2, characterized in that in particular two, preferably in a longitudinal central region of the jet regulating device ( 8 ) separate, expediently forming cylinder sectors, sleeve parts ( 3 , 4 ) are provided, the pin sections ( 10 , 11 ) of which are aligned with one another in the installed position. 4. Jet regulator according to one of claims 1 to 3, characterized in that in a separating region of the sleeve parts ( 3 , 4 ) connecting means are provided for holding in the closed assembly position. 5. Jet regulator according to one of claims 1 to 4, characterized in that latching and / or snap connections are provided on the sleeve parts ( 3 , 4 ) as connecting means with preferably complementary, interlocking connecting parts ( 13 , 14 ). 6. Jet regulator according to one of claims 1 to 5, characterized in that an ultrasonic welded connection is provided as the connecting means for connecting the sleeve parts ( 3 , 4 ) in the closed assembly position. 7. Jet regulator according to one of claims 1 to 6, characterized in that the pin sections ( 10 , 11 ) have at their free, in the mounting position facing each other at least a form-fitting interlocking, complementary end contours. 8. Jet regulator according to one of claims 1 to 7, characterized in that adjacent sleeve parts ( 3 , 4 ) in the area of the longitudinal axis of the jet regulator ( 1 ) approximately axially parallel surface lines are preferably pivotally connected to one another by means of a film hinge (s) ( 12 ) or articulated hinges . 9. Jet regulator according to one of claims 1 to 8, characterized in that in particular parallel pins ( 9 ) are preferably arranged in a rust-like manner in at least one plane oriented transversely to the flow direction and in particular several pin positions in spaced-apart planes in the flow direction (Pf1 ) are provided one above the other. 10. Jet regulator according to one of claims 1 to 9, characterized in that at least two adjacent pin positions transverse to the flow direction (Pf1) laterally offset pins ( 9 ) and that the pins ( 9 ) of a downstream pin position in the by the pins ( 9th ) a flow path formed upstream of adjacent pin positions are arranged. 11. Jet regulator according to one of claims 1 to 10, characterized in that the distance between adjacent pins ( 9 ) of a pin position is at least approximately the same. 12. Jet regulator according to one of claims 1 to 11, characterized characterized in that the distance from the upstream side ordered, adjacent pin positions is smaller than that Distance from neighboring pin positions arranged downstream and that the pin position on the outlet side has pins a distance from each other and to pins of the neighboring ones Pin position of preferably more than 0.8 mm. 13. Jet regulator according to one of claims 1 to 12, characterized in that the pins ( 9 ) have a rounded or the same aerodynamic cross-sectional profile and preferably a circular or one with its longer cross-sectional extent in the flow direction (Pf1) oriented, oval, drop-shaped or the like have an elongated cross-sectional profile. 14. Jet regulator according to one of claims 1 to 13, characterized characterized in that several pin positions are provided, in particular two to ten, preferably six pin positions. 15. Jet regulator according to one of claims 1 to 14, characterized in that in the connection area of the pins ( 9 ) with the housing wall, in particular supports formed by support ribs or the same formations are provided. 16. Flow regulator according to one of claims 1 to 15, characterized in that the jet regulating device is connected upstream (8), a flow break (5) with strahlzerlegeplatte (6) and that the Strahlzerlegeplatte (6) is preferably integrally formed with the housing wall of one of the sleeve parts (3 4 ) is connected. 17. Jet regulator according to claim 16, characterized in that the holes in the jet separating plate ( 6 ) are conically constricted in the flow direction and preferably have an inlet radius or inlet cone on the inflow side. 18. Jet regulator according to one of claims 1 to 17, characterized in that the pins ( 9 ) of the first pin position on the inflow side are arranged in the direction of escape to the hole axes of the holes ( 9 ) in the jet splitting plate ( 6 ). 19. Jet regulator according to one of claims 1 to 18, characterized in that at the flow outlet end ( 17 ) of the housing ( 2 ) behind the jet regulating device ( 8 ) a housing constriction ( 18 ) is provided for beam bundling. 20. Jet regulator according to one of claims 1 to 19, characterized in that an upstream screen ( 15 ) and / or a flow regulator is connected upstream of the jet regulating device ( 8 ) or before the jet separating device ( 5 ).